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Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
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Target Concepts:
Gene/Protein
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Query: EC:3.4.11.18 (
MAP
)
7,412
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Articaine, a new local anesthetic and the first substance of the amide type with a thiophene ring, has been studied to evaluate its effects on intrapulpal blood pressure (IPP) and mandibular and femoral pressures (
MAP
,
FAP
) after injections in the posterior mental foramen (PMF). Eight mongrel dogs of either sex, 9-12 months of age weighing from 15-25 kg were anesthetized. The PMF and the middle foramen were uncovered to expose the vascular-nerve bundle. The mandibular artery was dissected, cannulated, and filled with a heparinized normal saline solution. A 27-gauge needle was placed into the PMF for the injections of the local anesthetic. Into the ipsilateral canine, a cannula hermetically sealed and filled with heparinized saline solution was inserted. All hemodynamic measurements (IPP,
MAP
,
FAP
) were recorded with a precalibrated polygraph. The results obtained allow us to conclude that articaine 4% with epinephrine 1:100,000 injected in the PMF (0.3 ml), produces a drop of the intrapulpal blood pressure due to a strong vasoconstriction, whereas this effect is less pronounced at the
MAP
level and almost inexistent in the
FAP
.
...
PMID:Effects of articaine on intrapulpal, mandibular, and femoral pressures in dogs. 207 80
This study evaluated the use of genetic testing and time trends in hereditary non-polyposis colorectal cancer (HNPCC), (attenuated) familial adenomatous polyposis [(A)
FAP
] and human MutY homolog (MUTYH) associated polyposis (
MAP
) families. Eighty-seven families, who were diagnosed with disease-causing mutations between 1995 and 2006, were included in this study. The families consisted of 1547 individuals at risk. Data of these individuals were collected from medical records and family pedigrees. There was considerable interest in genetic testing with test rates of 41% in HNPCC families, 42% in (A)
FAP
families and 53% in
MAP
families. The use of genetic testing was associated with age and parenthood. Despite the interest in genetic testing, many risk carriers do not apply for testing. Moreover, time trend analysis showed a decline in test rate in HNPCC families. Studies evaluating the reasons for not testing are needed. Furthermore, a better implementation of genetic testing in clinical practice is desirable.
...
PMID:The use of genetic testing in hereditary colorectal cancer syndromes: genetic testing in HNPCC, (A)FAP and MAP. 1792 49
The colorectal polyposes are uncommon and frequently present diagnostic difficulties. Although the final diagnostic arbiter is the demonstration of a germline mutation, this may not always be demonstrable, and some forms of colorectal polyposis have no known genetic basis. Therefore, an accurate description of the phenotype by the pathologist is central to the establishment of a working diagnosis. This can direct the search for the underlying genetic cause (if any) and is also essential for establishing the magnitude of risk of colorectal malignancy for the patient and the patient's relatives. The pathologist may be provided with only a small and selected sample of endoscopically resected polyps or with prodigious numbers of polyps (too many to sample) when receiving a surgical specimen. Each type of polyposis presents its own particular diagnostic problems that may relate to polyp numbers, gross recognition of small or flat polyps, incomplete development of the full phenotype at the stage of investigation, and the histological classification of unusual or mixed polyps. The aim of this review is to highlight the principles and pitfalls in achieving a comprehensive description of the various types of colorectal polyposis, including classical
FAP
, attenuated
FAP
, MUTYH- (formerly MYH-) associated polyposis (
MAP
), other presentations of multiple adenomas, Peutz-Jeghers syndrome (P-JS), juvenile polyposis syndrome (JPS), Cowden syndrome (CS), hereditary mixed polyposis syndrome (HMPS), and hyperplastic polyposis syndrome (HPS).
...
PMID:Colorectal polyposes: from phenotype to diagnosis. 1854 88
There are two major hereditary colorectal cancer syndromes: Adenomatous Polyposis, secondary to APC germline alterations (
FAP
, Familial Adenomatous Polyposis) or secondary to MUTYH germline alterations (
MAP
, MUTYH associated Polyposis), and Lynch syndrome, associated with germline mutations in mismatch repair genes (MLH1, MSH2, MSH6 and PMS2). The elucidation of their genetic basis has depicted an increasingly complex picture that has lead to the implementation of complex diagnostic algorithms that include both tumor profiling and germline analyses. A variety of techniques at the DNA, RNA and protein level are used to screen for molecular alterations both in tumor biopsies (microsatellite instability analysis, mismatch repair protein immunohistochemistry, BRAF-Val600Glu detection and MLH1 promoter hypermethylation analysis) and in the germline (point mutation screening, copy number assessment). Also functional tests are more often used to characterize variants of unknown significance. Methodological issues associated with the techniques analyzed, as well as the algorithms used, are discussed.
...
PMID:Detection of genetic alterations in hereditary colorectal cancer screening. 1993 46
The case presented raised our scientific curiosity and it is worthy of being brought in front of the medical audience because of several reasons presented below. Presently, there are 3 hereditary syndromes that have a demonstrated etiological relationship with the colorectal cancer: Familiar Adenomatous Polyposis (
FAP
syndrome), HNPCC syndrome (Hereditary Nonpoliposis Colorectal Cancer) and
MAP
syndrome.Discovered only in 2002, the
MAP
syndrome (MYH associated polyposis) is the first hereditary syndrome that has autosomal recessive transmission. The APC gene can be mutated in several ways during the colonic oncogenesis: congenital in the
FAP
syndrome, somatic in sporadic colorectal cancers and secondary to the MYH gene inactivation in
MAP
syndrome.
MAP
phenotype is similar to the
FAP
phenotype because of the somatic mutations to the APC gene. Colonic polyposis is lower than
FAP
syndrome and appeared later, in the 40's and 50's. Colorectal cancers are frequent and discovered in the same moment as the colonic polyposis. Patients are diagnosed mostly in cancer stages. Colonoscopy shows polyps disseminated around the entire colic frame. Treatment in these cases is total rectocolectomy with ileoanal anastomosis. When working in a general emergency surgery clinic, physicians are often faced with colorectal cancers in different evolutive stages, and mostly they are faced with their complications.
...
PMID:Map syndrome (MYH Associated Polyposis) colorectal cancer, etiopathological connections. 2150 84
MAP
(MUTYH-associated polyposis) is a syndrome, described in 2002, which is associated with colorectal adenomas, with enhanced colorectal carcinogenesis. This review synthesizes the available literature on
MAP
and outlines its pathogenesis, association with colorectal tumorigenesis, screening, treatment, and the subtle differences between it and its close cousins-
FAP
and AFAP. The preponderance of data is collected using
MAP
guidelines. However, although AFAP and
MAP
appear similar, potentially important distinctions exist, warranting targeted diagnostic criteria and treatment approaches. We suggest that it may be prudent to screen for
MAP
earlier than in current clinical practice, as it has been shown that sequence variants are associated with more severe disease, presenting with an earlier onset of colorectal cancer. Finally, we issue a call-to-action for much-needed further data to establish clear clinical and diagnostic criteria.
...
PMID:Hereditary Colorectal Tumors: A Literature Review on MUTYH-Associated Polyposis. 2914 11
